Trim and glass run attachment structure in vehicle door

ABSTRACT

A window frame is constituted by an inner panel, an outer panel and a door sash which are formed by press molding, and a glass run body of a glass run is attached and locked in an attachment groove provided in the door sash. A trim formed separately from the glass run is fitted to an interior flange of the inner panel and an interior flange of the door sash so that an exterior holding lip of the trim is brought into pressure contact with an interior holding lip provided on the glass run. A door glass is held to be able to be guided to slide by seal lips of the glass run. The interior flange and the attachment groove are integrally formed in a common component and the relative positions of these two parts are kept stable.

BACKGROUND OF THE INVENTION

[0001] 1. Field of the Invention

[0002] The present invention relates to an attachment structure for a trim and a glass run. The trim is attached to a flange formed on the inner circumference of a window frame of a vehicle, and the glass run is attached to a door sash of the window frame so that the glass run guides a door glass to make the door glass slide on the glass run when the door glass is opened and closed in a window opening of the window frame. The present application is based on Japanese Patent Application No. 2000-43189, which is incorporated herein by reference.

[0003] 2. Description of the Related Art

[0004] In the background art, a window frame of a side door of a vehicle is constituted by an inner panel, an outer panel and a door sash which are formed by press forming. To connect these members, flanges formed on the respective members are welded with each other. It is necessary to cover those flanges with a trim having a U-shaped section. A glass run to be attached into an attachment groove of the door sash is of an integral type in which the sectionally U-shaped trim is formed integrally, and others are of a separate type in which the glass run and the trim are formed separately.

[0005] In the case of the former, that is, in the case of the integral type, as shown in FIG. 11, a window frame 13 is constituted by an inner panel 15, an outer panel 16, and a door sash 17 attached between the inner panel 15 and the outer panel 16. A car-interior-side (hereinafter, simply referred to as “interior”) flange 17 a of the door sash 17 is welded with an inner-circumferential flange 15 b of the inner panel 15 in a condition that they are superimposed on each other. A car-exterior-side (hereinafter, simply referred to as “exterior”) flange 17 b of the door sash 17 is welded with a flange 16 f of the outer panel 16 in a condition that they are superimposed on each other. A glass run body 31 a of a glass run 31 is attached into a channel-like attachment groove 17 c which is formed in the door sash 17 by press forming. A door glass 14 is inserted between seal lips 31 b and 31 c of the glass run body 31 a so that the door glass 14 can be guided by sliding on the glass run body 31 a. A trim 31 d having a U-shaped section is formed integrally with the glass run 31 so as to cover the interior flanges 15 b and 17 a. In addition, a holding lip 31 e also having a seal function is formed on the exterior side wall of the glass run body 31 a so as to perform sealing between the glass run body 31 a and a molding provided separately so as to cover the outside of the flange 16 f of the outer panel 16 (see Japanese Patent Publication No. JP-A-10-86668).

[0006] On the other hand, in the case of the latter, that is, in the case of the separate type, as shown in FIG. 12, a window frame 13 is constituted by an inner panel 15 and an outer panel 16. A separate retainer frame 32 (corresponding to the door sash 17) also serving as a molding is attached to the outer panel 16 by a clip 33. Then, a glass run 31 is attached into the retainer frame 32. Meanwhile, a trim 34 formed separately from the glass run 31 and having a U-shaped section is attached to interior flanges 15 b and 16 f of the inner panel 15 and the outer panel 16 (see Japanese Utility model Publication No. JP-U-4-130514).

[0007] Since the trim 31 d is formed integrally with the glass run body 31 a in the former attachment structure for the glass run 31, the number of parts can be reduced. However, the glass run 31 increases in size as a whole so that there is a problem in the working of attachment to the window frame 13. In addition, the interior flanges 15 b and 17 a of the inner panel 15 and the door sash 17 respectively perform sealing between the window frame 13 and a door weather strip provided at a door opening edge of a vehicle body frame, at the inner circumferential edge of a corner portion of the window frame 13. Accordingly, it is necessary to set the curvature radius of each of the flanges 15 b and 17 a to be large in accordance with the large curvature radius of a corner portion of the weather strip. On the contrary, each of the inner circumferential edges of corner portions of the outer panel 16 and the door sash 17 is set to have a small curvature radius in order to make the external appearance good-looking. Incidentally, the above configuration will be made clear in FIG. 2 showing an embodiment of the present invention.

[0008] From the point of view of realization in sheet metal working, however, it is difficult to set the curvature radius of the corner portion at the door opening edge of the vehicle body frame to be small in accordance with the curvature radius of the corner portion of the door sash 17.

[0009] Accordingly, the glass run body 31 a of the glass run 31 and the trim 31 d have different shapes in their corner portions so that each of molded portions of the corner portions has a complicated curved-surface structure and increases in size. Thus, there is a problem that it is difficult to form them by a molding method.

[0010] In addition, it is necessary to form the interior seal lip 31 b to be large due to the integral formation of the trim 31 d as shown in FIG. 11. Accordingly, it is difficult to balance the durability of the seal lip 31 b with the sliding resistance when the door glass 14 moves up and down.

[0011] Further, there is also a problem that the attachment of the glass run 31 to the window frame 13 is difficult in a corner portion so that it is difficult to set the glass run 31 in a proper position.

[0012] On the other hand, in the latter separate-type attachment structure for the glass run 31 and the trim 34, the glass run 31 and the trim 34 are formed by separate members from each other. Accordingly, it is possible to form the glass run 31 to be small as a whole, and it is also possible to mold a corner portion of the glass run 31 easily. In addition, a corner portion of the trim 34 can be formed only by bending an extrusion body formed by an extruding method.

[0013] In the latter attachment structure, however, the separate retainer frame 32 is attached to the outer panel 16. Accordingly, the retainer frame 32 may shift in position due to an error on manufacturing and installing the outer panel 16 and the retainer frame 32. As a result, there arises scattering in the pressing force on a contact portion between the interior holding lip 31 f of the glass run 31 and the holding lip 34 a of the trim 34. Then, a shortage of the pressing force causes a failure in sealing, and a gap is formed so that the exterior appearance deteriorates. On the contrary, if the pressing force becomes excessive, the seal lip 31 b of the glass run 31 is displaced on the car-exterior-side. As a result, the seal lip 31 b is intensely pressed on the door glass 14 so that the sliding resistance increases when the door glass 14 moves up and down. Thus, there is a problem that the door glass 14 cannot be moved up and down smoothly.

SUMMARY OF THE INVENTION

[0014] It is an object of the present invention to solve the foregoing problems belonging to the background art, and to provide a trim and glass run attachment structure in a vehicle door in which a trim and a glass run can be formed easily, and the glass run is prevented from shifting in position when it is attached to a window frame, so that a door glass can be moved up and down smoothly, and further in which the exterior appearance can be made good-looking.

[0015] In order to solve the above problems, according to the invention stated in claim 1, there is provided a trim and glass run attachment structure in a vehicle door, comprising: flanges formed on a window frame of a vehicle door; a channel-like attachment groove provided outward to an outer circumferential side from the flanges; wherein a trim having a substantially U-shaped section is attached to the flanges; wherein a glass run body of a glass run formed separately from the trim is fitted into the attachment groove; wherein a part of the trim is in contact with the glass run, when the trim is attached to the flanges; and wherein a part of the flanges and a part of the channel-like attachment groove are integrally formed in a common component.

[0016] According to the invention stated in claim 2, in the trim and glass run attachment structure in a vehicle door as defined in claim 1, a car-exterior-side wall surface of the trim is in contact with a car-interior-side wall surface of the glass run.

[0017] According to the invention stated in claim 3, in the trim and glass run attachment structure in a vehicle door as defined in claim 1 or 2, locking means is provided in each of the attachment groove and the glass run body; the locking means is constituted by lock protrusion strips formed on car-interior-side and car-exterior-side opposite side walls of the attachment groove, and other lock protrusion strips formed integrally with an outside surface of a base portion or outside surfaces of car-interior-side and car-exterior-side opposite side walls of the glass run body so as to be locked by the first-mentioned lock protrusion strips; and in a condition that a part of the trim is brought into contact with the glass run, while the locking means is covered with the part of the trim which is brought into contact with the glass run.

[0018] According to the invention stated in claim 4, in the trim and glass run attachment structure in a vehicle door as defined in claim 2, a holding lip is formed integrally with a car-exterior-side side wall of the trim, and another holding lip is provided at an inner circumferential edge of a car-interior-side side wall of the glass run so as to be restricted in position by pressure contact against an outside surface of the holding lip.

[0019] According to the invention stated in claim 5, in the trim and glass run attachment structure in a vehicle door as defined in claim 2, a holding lip projecting car-interiorly is formed integrally with a car-interior-side side wall of the glass run body, and another holding lip is formed integrally with a car-exterior-side side wall of a trim body of the trim so as to be brought into pressure contact with an outer surface of the car-interior-side holding lip.

[0020] According to the invention stated in claim 6, in the trim and glass run attachment structure in a vehicle door as defined in claim 2, an engagement step portion is formed in a car-interior-side side wall of the glass run body, and an outer circumferential edge of a car-exterior-side side wall of a trim body of the trim is engaged with the engagement step portion to be thereby restricted in position.

[0021] According to the invention stated in claim 7, in claim 4, the holding lip of the glass run and the holding lip of the trim have engaging means which are engaged with each other.

[0022] According to the invention stated in claim 8, in the trim and glass run attachment structure in a vehicle door as defined in claim 1, the window frame is constituted by an inner panel, and an outer panel or a molding member, and a door sash so that the flanges are formed in car-interior-side connection portions of the inner panel and the door sash, while the channel-like attachment groove is formed on an outer circumferential side from root portions of the flanges.

[0023] According to the invention stated in claim 9, in the trim and glass run attachment structure in a vehicle door as defined in claim 8, the flange of the door sash is formed in series with a car-interior-side side wall of the attachment groove of the door sash, and trim and glass run attachment bases are formed of one and the same members.

BRIEF DESCRIPTION OF THE DRAWING

[0024]FIG. 1 is a cross-sectional view showing a trim and glass run attachment structure for carrying out the present invention;

[0025]FIG. 2 is an enlarged perspective view of a corner portion of a window frame;

[0026]FIG. 3 is an enlarged perspective view of corner portions of a trim and a glass run;

[0027]FIG. 4 is a front view of a vehicle side door;

[0028]FIG. 5 is a cross-sectional view of a window frame showing another embodiment of the present invention;

[0029]FIG. 6 is a cross-sectional view of a window frame showing another embodiment of the present invention;

[0030]FIG. 7 is a front view of a corner portion of a trim showing another embodiment of the present invention;

[0031]FIG. 8 is a cross-sectional view of a window frame showing another embodiment of the present invention;

[0032]FIG. 9 is a cross-sectional view of a window frame showing another embodiment of the present invention;

[0033]FIG. 10 is a partially cross-sectional view of a trim and a glass run showing another embodiment of the present invention;

[0034]FIG. 11 is a cross-sectional view showing a background-art glass run attachment structure; and

[0035]FIG. 12 is a cross-sectional view showing a background-art trim and glass run attachment structure.

DETAIL DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0036] An embodiment for carrying out the present invention will be described below with reference to FIGS. 1 to 4.

[0037] As shown in FIG. 4, a side door 11 of a vehicle is constituted by a door body 12, a window frame 13 provided over the door body 12, and a door glass 14 provided up and down movably.

[0038] As shown in FIGS. 1 and 2, the window frame 13 is constituted by an inner panel 15, an outer panel 16 and a door sash 17 which are made of metal. An exterior flange 15 a of the inner panel 15 is welded with an outer-circumferential bent portion 16 a of the outer panel 16 in a condition that the inner panel 15 is fitted in the bent portion 16 a. An interior flange 15 b of the inner panel 15 is welded with an interior flange 17 a of the door sash 17 in a condition that the flange 15 b is put on the flange 17 a so as to be brought into contact therewith. Further, an exterior flange 17 b of the door sash 17 is welded with an inner-circumferential bent portion 16 b of the outer panel 16 in a condition that the flange 17 b is fitted into the bent portion 16 b.

[0039] A trim 18 is attached to the car-interior flanges 15 b and 17 a. The material of the trim 18 may be PVC (polyvinyl chloride) resin, TPO (thermoplastic olefin elastomer), or the like, by way of example. A trim body 18 a of the trim 18 is formed to have a U-shaped cross-section with a base portion 18 b and a pair of interior and exterior side walls 18 c and 18 c, and has a metal insert 19 internally. A plurality (four in this embodiment) of engagement lips 18 d are formed on the inside surfaces of the side walls 18 c and 18 c so as to be brought into pressure contact with the interior flanges 15 b and 17 a. An interior holding lip 18 e is formed on an end portion of the interior side wall 18 c so as to be brought into pressure contact with the surface of the inner panel 15. An exterior holding lip 18 f is formed on the outside wall of the exterior side wall 18 c so that the tip edge of the holding lip 18 f is brought into pressure contact with the door sash 17.

[0040] The trim 18 is attached so that the interior flanges 15 b and 17 a are inserted into the U-shaped trim body 18 a of the trim 18. Then, the engagement lips 18 d come into pressure contact with the interior flanges 15 b and 17 a so as to engage them. Thus, the trim 18 is held in a predetermined attachment position.

[0041] As shown in FIG. 1, the glass run 20, which guides the door glass 14 to slide thereon and move up and down while sealing off the interior and exterior sides of the cabin from each other, is attached and locked into a channel-like attachment groove 17 c formed in the door sash 17. The attachment groove 17 c is located on the outer circumferential side of the root portion of the interior flange 17 a, and formed in series with the flange 17 a. Namely, the interior flange and the attachment groove 17 c are integrally formed in a common component and the relative positions of these two parts are kept stable. The glass run 20 is formed of solid rubber of EPDM (ethylene-propylene-diene copolymer).

[0042] As shown in FIGS. 1 and 3, the glass run 20 is provided with a glass run body 20 a having an inverted-U-shape in cross-section. The glass run body 20 a is constituted by a base portion 20 b and a pair of interior and exterior side walls 20 c and 20 c projecting from the opposite, left and right side edge portions of the base portion 20 b. Lock protrusion strips 20 d and 20 e constituting lock means are formed on the outer wall surfaces of the opposite end portions of the base portion 20 b so as to project thereon. On the other hand, a lock protrusion strip 20 f constituting lock means is formed on the outside surface of the interior side wall 20 c so as to project thereon. When the glass run body 20 a is attached into the attachment groove 17 c, the lock protrusion strip 20 e is locked by a lock step portion 16 e formed by the inner edge of the bent portion 16 b on the inner circumferential side of the outer panel 16. Thus, the glass run body 20 a is prevented from being detached. The lock protrusion strip 20 f is locked by a lock protrusion strip 17 d formed like a step at the inner circumferential edge of the interior side wall of the attachment groove 17 c of the door sash 17 so as to constitute lock means. Thus, the glass run body 20 a is prevented from being detached.

[0043] Incidentally, though not shown in the drawings, before the glass run body 20 a is attached into the attachment groove 17 c, the opposite side walls 20 c and 20 c of the glass run body 20 a are more spread from each other as the positions come at the inner circumferential edges thereof. Therefore, when the glass run 20 is attached into the attachment groove 17 c, the side walls 20 c and 20 c are urged toward the opposite inside surfaces of the attachment groove 17 c by the elastic restoring force of the glass run 20. Consequently, the state where the glass run 20 is locked in the attachment groove 17 c by the aforementioned lock means is kept stable.

[0044] Seal lips 20 g and 20 h for guiding the door glass 14 to slide thereon in the moving up and down direction are formed integrally with the forward end portions of the opposite side walls 20 c and 20 c. In addition, an exterior holding lip 20 i is formed integrally with the forward end portion of the exterior side wall 20 c. The exterior holding lip 20 i is pressed and locked at the edge of the bent portion 16 b of the outer panel 16 so as to perform sealing between the outer panel 16 and the glass run 20.

[0045] On the other hand, an interior holding lip 20 j is formed integrally with the end portion of the interior side wall 20 c of the glass run body 20 a. The interior holding lip 20 j is brought into pressure contact with the outside surface of the holding lip 18 f of the trim 18 so as to cover the aforementioned locking means (lock between the lock protrusion strip 20 f and the lock protrusion strip 17 d) while sealing off the contact portion between the trim 18 and the glass run 20. Thus, the attachment position of the trim 18 and the glass run 20 is restricted.

[0046]FIG. 2 shows an enlarged rear corner portion P of the window frame 13 in FIG. 4. As shown in FIG. 2, a corner portion 17 e of the interior flanges 15 b and 17 a is formed so that an inner circumferential edge 17 f of the corner portion 17 e has a large curvature radius R corresponding to the curvature radius of a corner portion of a car-body-side frame where a door opening is formed. On the other hand, an inner circumferential edge 16 d of a corner portion 16 c of the outer panel 16 and the door sash 17 is formed to have an acute angle so that a curvature radius r of the inner circumferential edge 16 d is smaller than the curvature radius R to thereby make the good-looking appearance.

[0047]FIG. 3 is a perspective view showing the trim 18 and the glass run 20 in the corner portion P in FIG. 4. As shown in FIG. 3, a horizontally extending linear portion and a vertically extending linear portion of the trim 18 are connected by a corner portion 21. This corner portion 21 is formed at the same time as the linear portions of the trim 18 are extruded. The curvature radius of an inner circumferential surface 21 a of the corner portion 21 is set to be substantially equal to the curvature radius R of the inner circumferential edge 17 f of the aforementioned corner portion 17 e.

[0048] A horizontally extending linear portion and a vertically extending linear portion of the glass run 20 are formed by extrusion. Both the linear portions are connected by a corner molded portion 22. The molded portion 22 is constituted by a first molded portion 22 a and a second molded portion 22 b. The first molded portion 22 a is formed to have substantially the same sectional shape as that of the glass run body 20 a. The second molded portion 22 b is formed such that the seal lip 20 h and the interior holding lip 20 j are formed to be large.

[0049] As shown in FIG. 3, an opening portion 23 is formed between the outer circumferential surface of the corner portion 21 and the second molded portion 22 b in accordance with the difference in size between the aforementioned curvature radii R and r. This opening portion 23 is closed by a shielding plate 24 bonded with the exterior holding lip 18 f of the trim 18 in a post-process.

[0050] Next, the effects of the side door 11 configured thus will be described together with its configuration.

[0051] (1) In the above embodiment, the glass run body 20 a of the glass run 20 formed separately from the trim 18 is attached directly into the attachment groove 17 c of the door sash 17 constituting the window frame 13 so that the lock protrusion strip 20 e is locked by the lock step portion 16 e while the lock protrusion strip 20 f is locked by the lock protrusion strip 17 d. Accordingly, the glass run 20 can be formed to be compact, and the working of attachment thereof can be achieved easily. In addition, the attachment position of the glass run 20 is set to be proper in the attachment groove 17 c of the door sash 17 so that the door glass 14 can be guided to slide properly on the glass run 20 by the seal lips 20 g and 20 h. This is because the flange 17 a of the door sash 17 and the interior side wall of the attachment groove 17 c are formed in series and the attachment bases for the trim 18 and the glass 20 are formed of the same members. In addition, there is no fear that the interior seal lip 20 h is enlarged according to the relationship between the glass run 20 and the trim 18. Thus, the durability of the interior seal lip 20 h can be improved.

[0052] (2) In the above embodiment, the trim 18 formed separately from the glass run 20 is attached to the interior flange 15 b of the inner panel 15 and the interior flange 17 a of the door sash 17. In addition, the exterior holding lip 18 f is formed on the exterior wall surface of the side wall 18 c of the trim 18, and the interior holding lip 20 j of the glass run 20 is brought into pressure contact with the holding lip 18 f. As a result, dimensional errors on the manufacturing and installing of the door sash 17, the trim 18 and the glass run 20 are absorbed so that the trim 18 and the glass run 20 can be installed properly in desired positions with the door sash 17 as attachment base. Thus, the appearance can be made good-looking.

[0053] (3) In the above embodiment, the exterior holding lip 18 f of the trim 18 is locked by the lock protrusion strip 17 d of the door sash 17 and the interior holding lip 20 j of the glass run 20 is pressed onto the holding lip 18 f. Accordingly, the exterior holding lip 18 f, the lock protrusion strip 20 f and the interior holding lip 20 j can be held to be installed in proper positions with the lock protrusion strip 17 d as an attachment base. Thus, it can be prevented that the interior holding lip 20 j is excessively pressed against the exterior side by the exterior holding lip 18 f so that the seal lip 20 h is intensely pressed onto the door glass 14. Consequently, the door glass 14 is guided properly to slide in the glass run 20.

[0054] (4) In the above embodiment, because the trim 18 and the glass run 20 are formed separately, the curvature radius of the corner portion 21 of the trim 18 can be set to be large correspondingly to the curvature radius R of the corner portion 17 e of the interior flanges 15 b and 17 a as shown in FIG. 2. As a result, the corner portion 21 can be formed not by molding but by extruding together with the trim 18. It is therefore possible to manufacture the corner portion 21 easily. In addition, the corner molded portion 22 of the glass run 20 can be molded to be compact without any consideration of the shape of the corner portion of the trim 18. Accordingly, it is possible to form the corner molded portion 22 easily.

[0055] (5) In the above embodiment, step-cut forming is performed so that the corner molded portion 22 of the glass run 20 is constituted by the first molded portion 22 a and the second molded portion 22 b. Accordingly, the volume of the corner molded portion 22 can be reduced to make forming equipment therefor compact, and the working of molding can be achieved easily.

[0056] Incidentally, the above embodiment can be carried out in the following modifications.

[0057] As shown in FIG. 5, the exterior holding lip 18 f of the trim 18 may be brought into pressure contact with the outside surface of the interior holding lip 20 j of the glass run 20.

[0058] In this case, the interior holding lip 20 j is pressed against the lock protrusion strip 17 d so that the attachment state of the glass run 20 can be kept stable. In addition, there is no fear that the seal lip 20 h is pressed against the exterior side. Accordingly, the door glass 14 can be guided properly to slide.

[0059] As shown in FIG. 6, an engagement step portion 20 k may be formed in the interior side wall 20 c of the glass run 20 so that an outer circumferential edge 18 g of the exterior side wall 18 c of the trim 18 is engaged with the engagement step portion 20 k. The engagement step portion 20 k and the outer circumferential edge 18 g also have a function as locking means for the glass run 20. In this modification, the lock protrusion strip 17 d of the door sash 17 may be omitted so that the door sash 17 can be made simple in sectional shape to facilitate the manufacturing.

[0060] As shown in FIG. 7, a shielding plate portion 18 h may be formed on the corner portion of the exterior holding lip 18 f of the trim 18 by variable extrusion forming when the trim 18 is extrusion. In this modification, the structure for shielding the opening portion 23 can be formed more easily than that in the case where the shielding plate 24 is bonded with the holding lip 18 f in a post-process.

[0061] As shown in FIG. 8, the bent portion 16 b on the inner circumferential side of the outer panel 16 may be replaced by a plate-like flange 16 f. Then, the flange 16 f is welded in a condition that the flange 16 f is in contact with the exterior flange 17 b so that the exterior holding lip 20 i of the glass run 20 is brought into pressure contact with the flange 16 f. In this modification, there is formed no gap even if the exterior holding lip 20 i is attached in a condition that the lip 20 i is somewhat shifted in position relatively to the flange 16 f. Accordingly, the appearance can be made good-looking.

[0062] As shown in FIG. 9, the outer panel 16 may be replaced by a design molding 25 constituted by a metal panel made of stainless steel or the like. The design molding 25 is fixed to the inner panel 15 so as to cover the exterior flange 17 b. The glass run 20 is attached into a cross-sectionally U-shaped attachment groove formed by the design molding 25 and the door sash 17 so that the edge of the design molding 25 is pressed by the exterior holding lip 20 i of the glass run 20. The holding lip 18 f is brought into contact with the outside surface of the holding lip 20 j so that the outer circumferential edge 18 e of the trim body 18 a is fitted into a groove portion formed between the lock protrusion strip 20 f and the holding lip 20 j. In this modification, the connection of the trim 18 and the glass run 20 can be made more stable.

[0063] As shown in FIG. 10, an engagement protrusion strip 18 i provided on the exterior holding lip 18 f may be engaged with an engagement groove 20 l provided in the interior holding lip 20 j. Alternatively, the structure of the engagement protrusion strip 18 i and the structure of the engagement groove 20 l maybe reversed, or they maybe formed into lock step portions to be locked by each other. In this modification, the exterior holding lip 18 f and the interior holding lip 20 j are prevented from being shifted in position, so that the attachment state can be kept stable.

[0064] In place of the outer panel 16, a molding member made of stainless steel may be used to form a window frame.

[0065] Description will be made below about technical ideas, other than the claims, which will be grasped from the above embodiment.

[0066] (Technical Idea 1) In claim 1, a trim and glass run attachment structure in a vehicle door in which the corner portion of the trim 18 is formed by the corner portion 21 and the corner portion of the glass run 20 is formed by the corner molded portion 22.

[0067] (Technical Idea 2) In Technical Idea 1, a trim and glass run attachment structure in a vehicle door in which the shielding plate 24 or the shielding plate portion 18 h for shielding the opening portion 23 formed by the corner portion 21 and the corner molded portion 22 is bonded with or formed integrally with the corner portion 21. In Technical Ideal 2, since the opening portion is shielded, the appearance can be made good-looking.

[0068] As described above in detail, according to the invention stated in claims 1 to 9, scattering in attachment positions of a trim and a glass run is eliminated so that the trim and the glass run can be held in proper positions on a window frame. Thus, the appearance can be made good-looking, and a door glass can be guided to slide properly.

[0069] According to the invention stated in claim 2, in addition to the effects of the invention stated in claim 1, the trim and the glass abut against each other so that they can be positioned properly.

[0070] According to the invention stated in claim 3, in addition to the effects of the invention stated in claim 1, the appearance can be made good-looking, and the locked state of the glass run can be kept stable.

[0071] According to the invention stated in claim 4, in addition to the effects of the invention stated in claim 2, the attachment state of the trim can be kept stable by a holding lip of the glass run.

[0072] According to the invention stated in claim 5, in addition to the effects of the invention stated in claim 2, a holding lip projecting on the interior side of the glass run is pressed by a holding lip on the exterior side of the trim so that seal lips provided on the glass run can be held in proper positions. Thus, the door glass can be guided to slide properly.

[0073] According to the invention stated in claim 6, in addition to the effects of the invention stated in claim 2, the glass run is prevented from being detached from an attachment groove by the trim. As a result, the sectional shape of the door sash is made simple so that press-forming of the door sash can be performed easily.

[0074] According to the invention stated in claim 7, in addition to the effects of the invention stated in claim 4, the exterior holding lip of the trim and the interior holding lip of the glass run can be kept stable in proper positions. 

What is claimed is:
 1. A trim and glass run attachment structure in a vehicle door, comprising: a flange formed on a window frame of the vehicle door; a channel-like attachment groove provided outward at an outer circumferential side of said flange; a trim having a substantially U-shaped section and attached to said flange; and a glass run formed separately from said trim, having a glass run body to be attached into said attachment groove; wherein a part of said trim is in contact with said glass run, when said trim is attached to said flange; wherein a part of said flange and a part of said channel-like attachment groove are integrally formed in a common component.
 2. A trim and glass run attachment structure in a vehicle door according to claim 1 , wherein a car-exterior-side wall surface of said trim is in contact with a car-interior-side wall surface of said glass run.
 3. A trim and glass run attachment structure in a vehicle door according to claim 1 , wherein a locking means is provided in each of said attachment groove and said glass run body, said locking means comprises: lock protrusion strips formed on car-interior-side and car-exterior-side opposite side walls of said attachment groove, other lock protrusion strips formed integrally with an outside surface of a base portion or outside surfaces of car-interior-side and car-exterior-side opposite side walls of said glass run body so as to be locked by said first-mentioned lock protrusion strips; and wherein said locking means is covered with the part of said trim, in a condition that a part of said trim is brought into contact with said glass run.
 4. A trim and glass run attachment structure in a vehicle door according to claim 2 , wherein a holding lip is formed integrally with a car-exterior-side side wall of said trim, and another holding lip is provided at an inner circumferential edge of a car-interior-side side wall of said glass run so as to be restricted in position by pressure contact against an outside surface of said holding lip.
 5. A trim and glass run attachment structure in a vehicle door according to claim 2 , wherein a holding lip projecting car-interiorly is formed integrally with a car-interior-side side wall of said glass run body, and wherein another holding lip is formed integrally with a car-exterior-side side wall of a trim body of said trim so as to be brought into pressure contact with an outer surface of said car-interior-side holding lip.
 6. A trim and glass run attachment structure in a vehicle door according to claim 2 , wherein an engagement step portion is formed in a car-interior-side side wall of said glass run body; and wherein an outer circumferential edge of a car-exterior-side side wall of a trim body of said trim is engaged with said engagement step portion to be thereby restricted in position.
 7. A trim and glass run attachment structure in a vehicle door according to claim 4 , wherein said holding lip of said glass run and said holding lip of said trim have an engaging means which is engaged with each other.
 8. A trim and glass run attachment structure in a vehicle door according to claim 1 , wherein said window frame is constituted by an inner panel, an outer panel or a molding member, and a door sash as said common component; and wherein said flange is formed in a car-interior-side connection portion between said inner panel and said door sash, and said channel-like attachment groove is formed on an outer circumferential side from root portions of said flange.
 9. A trim and glass run attachment structure in a vehicle door according to claim 8 , wherein said flange of said door sash is formed in series with a car-interior-side side wall of said attachment groove of said door sash, and trim and glass run attachment bases are formed of one and the same member. 